Virtual file transmission system and method of transmitting virtual file thereof

ABSTRACT

A virtual file transmission system and a method thereof are disclosed. The virtual file transmission system includes a server side and a user side. The server side includes a virtual desktop management module for providing a virtual desktop and a risk management module. The user side includes a virtual desktop display module and a file execution module. The virtual desktop display module is used for displaying the virtual desktop and allowing a user to request the server side to open a file through the virtual desktop. When the server side received the request of opening the file, the risk management module determines the type and properties of the file to transmit image/sound streaming of the file to the user side to allow the virtual desktop displaying module display the streaming, or transmit the file to the user side to allow the file execution module to open the file.

FIELD

The present invention relates to a virtual file transmission system and a method thereof, and more particularly, to a virtual file transmission system and a method thereof which determine the transmitting mode according to the type of the file.

BACKGROUND

Due to the improvement of the computer technology and the universal of the network application, the techniques of the local area network system or the cloud system are developed vigorously. Therefore, in the prior art such as local area network system or the cloud system, the function of displaying virtual desktop has already been installed. The server side of the local area network system or the cloud system directly constructs the virtual desktop to display the virtual desktop or execute some application programs on the user side through the virtual desktop infrastructure (VDI). It is no need to download the file completely before the file is executed. Thus, the confidentiality of the file could be ensured, and the resource on the computer system of the user side could be consumed less.

However, in the prior art, the VDI would continually transmit the frame of the virtual desktop to the user side, and in order to make the user see the whole fluently virtual desktop, the refresh rate of the transmitted frame has to be kept at least 30 fps. Therefore, the data transmitting amount has to be kept high at any time, and it would occupy huge bandwidth and cause torments to the user having insufficient network bandwidth.

Therefore, there is a need for a new virtual file transmission system and method thereof to solve the problems of the prior art.

SUMMARY

The main object of the present invention is to provide a virtual file transmission system, which has a function of determining the transmitting way according to the type of the file.

Another main object of the present invention is to provide a virtual file transmission method applicable to the aforementioned system.

In order to achieve the above objects, the virtual file transmission system of the present invention comprises a server side and a user side. The server side comprises a virtual desktop management module and a risk management module. The virtual desktop management module is used for providing a virtual desktop. The risk management module is electrically connected with the virtual desktop management module. The user side is connected to the server side via a network environment for receiving the virtual desktop. The user side comprises a virtual desktop display module and a file execution module. The virtual desktop display module is used for displaying the virtual desktop and allowing a user requesting the server side to open a file through the virtual desktop. The file execution module is electrically connected with the virtual desktop display module. When the server side receives the request of opening the file, the risk management module would determine the type of the file; wherein when the risk management module confirms that the type of the file is a first type, the virtual desktop management module would open the file and convert the file into an image streaming or a sound streaming, and then transmit the image streaming or the sound streaming to the user side to enable the virtual desktop display module to display the image streaming or play the sound streaming. When the risk management module confirms that the type of the file is a second type, the virtual desktop management module would transmit the file to the user side to enable the file execution module to open and operate the file, and display the file on the virtual desktop through the virtual desktop display module.

The virtual file transmission method of the present invention comprises the following steps: requesting the server side to open a file; determining the type of the file; when the type of the file is a first type, opening the file and converting the file into a image streaming or a sound streaming, and then transmitting the image streaming or the sound streaming to the user side; when the user side receives the image streaming or the sound streaming, playing the image streaming or the sound streaming on the virtual desktop; when the type of the file is a second type, transmitting the file to the user side; and when the user side receives the file, opening the file and operating the file on the virtual desktop.

BRIEF DESCRIPTION OF THE DRAWINGS

The exemplary embodiment(s) of the present invention will be understood more fully from the detailed description given below and from the accompanying drawings of various embodiments of the invention, which, however, should not be taken to limit the invention to the specific embodiments, but are for explanation and understanding only.

FIG. 1 is a structure schematic diagram of the virtual file transmission system of the present invention.

FIG. 2 is a flow chart of a first embodiment of the virtual file transmission method of the present invention.

FIG. 3 is a flow chart of a second embodiment of the virtual file transmission method of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

These and other objects and advantages of the present invention will become apparent from the following description of the accompanying drawings, which disclose several embodiments of the present invention. It is to be understood that the drawings are to be used for purposes of illustration only, and not as a definition of the invention.

Please refer to FIG. 1, which is a structure schematic diagram of the virtual file transmission system of the present invention.

The virtual file transmission system 1 of the present invention is a virtual desktop application system, which is applicable to environments such as a company internal network or a cloud system, thus the virtual file transmission system 1 could include a server side 10 and a user side 20. The server side 10 and the user side 20 connect to each other via a network environment 2, and the data is transmitted through the network environment 2. The server side 10 could be a server of an internal network, or a server of a cloud network, but the present invention is not limited within these examples. The user side 20 provided for user operating could be a system such as a desktop computer, a laptop, a tablet or a smart phone, but the present invention is not limited within the aforementioned apparatuses. The server side 10 connects to the user side 20 to provide and transmit the virtual desktop to the user side 20, thus the user could operate the virtual desktop on the user side 20. It has to be noted here that the server side 10 could connect to several user sides 20, or only to single user side 20. When the server side 10 connects to several user sides 20, the server side 10 transmits different virtual desktop to different user sides 20 according to different users' operation. Because the operation mechanism of multiple user sides 20 is similar to the operation mechanism of single user side 20, the present invention would just explain the example of single user side 20 hereinafter.

The server side 10 includes a virtual desktop management module 11, a risk management module 12 and a data base 13, which are electrically connected with each other. The virtual desktop management module 11 is constructed by hardware or software cooperated with hardware. The virtual desktop management module 11 provides a virtual desktop to each user side 20, for example, using virtual desktop infrastructure (VDI) to construct the virtual desktop for the user to use on the user side 20. The virtual desktop management module 11 further includes many application programs to provide different software functions. When a user uses the virtual desktop on the user side 20 to execute a command, for example to open a file, the user side 20 would first request the server side 10 to transmit the file. At this moment, the virtual desktop management module 11 could use the included application program or operating system to open the file. Because the theory of the virtual desktop has been known by those skilled in the art, here the theory would not be described.

The risk management module 12 is electrically connected with the virtual desktop management module 11, and the risk management module 12 could be constructed by hardware or software cooperated with hardware. When the virtual desktop management module 11 receives the command of opening the file from the user side 20, the risk management module 12 would first determine whether the type of the file is a first type or a second type. For example, the risk management module 12 could first read the metadata of the file, and then compare the metadata with the data stored in the data base 13 of the server side 10 to determine the confidential level of the file. Or the risk management module 12 would analyze the environment of the user side 20 and the source of the file, for example, the risk management module 12 would determine whether the source of the file comes from an external connection so as to decide the risk level of the file. Besides, the risk management module 12 could also first determine the confidential level of the file, and then analyze the environment of the user side 20 and the source of the file, thus various file type could be adapted.

In one embodiment of the present invention, the risk management module 12 categorizes the file into a first type or a second type according to the confidential level of the file. Therefore, when the risk management module 12 determines the file is the first type, i.e. the file is a secret material. At the moment, the virtual desktop management module 11 would first open the file by using the application program included in the virtual desktop management module 11, and then convert the file into an image or a sound and store the image or the sound in a buffer region 111. After that, the virtual desktop management module 11 would transmit the image or the sound to the user side 20 continually and instantly through a streaming way. The virtual desktop management module 11 is able to generate the image streaming and the sound streaming at same time according to the type of the file, or the virtual desktop management module 11 generates only one of the streaming, the present invention does not limit it. On the other hand, when the risk management module 12 determines the file is the second type, i.e. the file is not a secret data, the virtual desktop management module 11 would transmit the file to the user side 20 to enable the user to operate the file on the user side 20 directly. In addition, the risk management module 12 could further categorize the file into a third type or a fourth type according to the environment of the user side 20 and the source of the file. The process flow to different types of the file would be described following with the steps or procedures of the present invention, and it would not be mentioned here.

The user side 20 includes a virtual desktop display module 21, a file execution module 22 and an operation module 23, which are electrically connected with each other. The virtual desktop display module 21 could be constructed by hardware or software cooperated with hardware. The virtual desktop display module 21 is used for displaying the virtual desktop transmitted from the server side 10 to enable the user operating the virtual desktop directly, and enable the user to open the file by requesting the server side 10 via the virtual desktop. After that, the processing procedures on the server side 10 would be the risk management module 12 determining the type of the data to be transmitted to the user side 20 according to the type of the file. When the server side 10 transmits the image streaming or the sound streaming, the virtual desktop display module 21 directly displays the image streaming or plays the sound streaming on the virtual desktop to allow the user watching the image streaming or listening to the sound streaming.

The file execution module 22 is electrically connected to the virtual desktop display module 21, and the file execution module 22 could be constructed by hardware or software cooperated with hardware. When the user side 20 receives the file from the server side 10, the file execution module 22 would call a corresponding application program of the user side 20 to open the file. The application program could be a window independent to the virtual desktop display module 21, and also could be a plug-in embedded in the virtual desktop display module 21, thus the file could be displayed on the virtual desktop. The operation module 23 is electrically connected to the virtual desktop display module 21, and the operation module 23 could be constructed by hardware or software cooperated with hardware. The operation module 23 is provided to the user for operating the file when watching the image streaming or listening to the sound streaming, and an operation signal could be transmitted back to the server side 10 via the operation module 23 to enable the virtual desktop management module 11 generating a new image streaming or a new sound streaming according to the operation signal. For example, when the user wants to change the page during watching the image streaming, the operation module 23 would generate an operation signal of changing page according to the operation by the user, and transmit the operation signal back to the server side 10. The virtual desktop management module 11 of the server side 10 would generate a new image streaming or a new sound streaming according to the operation signal, and then transmits the new image streaming or the new sound streaming back to the user side 20, thus an interactive result could be provided to the user. Besides, when the file execution module 22 directly opens the file, the user could also edit the file via the operation module 23. After the user editing the file, the operation module 23 transmits the updated file back to the server side 10 to be stored in the server side 10.

Next please refer to FIG. 2, which is a flow chart of the first embodiment of the virtual file transmission method in accordance with the present invention. It has to be noted here that though the virtual file transmission method of the present invention is described following by taking the virtual file transmission system 1 as an example, the virtual file transmission method of the present invention is not limited to be applied on the aforementioned virtual file transmission system 1.

First, execute the step 200: displaying the virtual desktop.

The virtual desktop management module 11 of the server side 10 first constructs a virtual desktop and then the virtual desktop is transmitted to the user side 20, thus making the virtual desktop display module 21 of the user side 20 display the virtual desktop to allow the user to operate the virtual desktop.

Following, execute the step 201: requesting the server side to open a file.

At this moment, the user side 20 could request the server side 10 to open the file according to the operation made by the user on the virtual desktop. In the first embodiment of the present invention, an example of requesting the server side 10 to open a text file would be described.

Next, execute the step 202: determining whether the file is a secret.

Secondly, when the server side 10 receives the command of opening the file, the risk management module 12 of the server side 10 would first confirm the type of the file to determine whether the file is the first type or the second type. In the first embodiment of the present invention, the risk management module 12 would first determine the confidential level of the file to make sure whether the file is a secret file. If the file is a secret file, the risk management module 12 determines the file is the first type; if the file is not a secret file, the risk management module 12 determines the file is the second type.

When the type of the file is the first type, execute the step 203: transmitting an image streaming or a sound streaming of the file to the user side.

Due to the file in the first embodiment of the present invention is a text file, the virtual desktop management module 11 would open the text file at this time and convert the text file into an image streaming, and then store the image streaming in the buffer region 111. Further, the image streaming is transmitted to the user side 20. When the file includes sounds, the virtual desktop management module 11 also converts the sounds into a sound streaming, and transmits the sound streaming to the user side 20.

Further execute the step 204: when the user side receives the image streaming or the sound streaming, displaying the image streaming or playing the sound streaming on the virtual desktop.

When the user side 20 receives the image streaming, the virtual desktop display module 21 would display the image streaming on the virtual desktop to enable the user to watch. Further, the user could operate the image streaming via the operation module 23, and then the operation signal would be transmitted back to the server side 10, thereby making the virtual desktop management module 11 generate a new image streaming according to the operation signal. Similarly, when the file includes sounds, the user side 20 would receive the sound streaming to allow the virtual desktop display module 21 to play the sound streaming. At the same time, the user could further operate the operation module 23 to make the virtual desktop management module 11 generate a new sound streaming according to the operation signal.

Besides, when the type of the file is the second type, execute the step 205: transmitting the file to the user side.

When the risk management module 12 confirms that the file is not a secret file, the virtual desktop management module 11 would directly transmit the file to the user side 20. For example, the virtual desktop management module 11 directly transmits the file having an extension of “.txt” to the user side 20.

Final, execute the step 206: when receiving the file, opening and operating the file on the virtual desktop.

After the user side 20 receiving the file, the file execution module 22 directly opens the file and displays the file on the virtual desktop or the independent window. The user thus is allowed to edit the file on the virtual desktop via the operation module 23, and then transmit the edited file back to the server side 10 for storing.

Following please refer to FIG. 3, which is a flow chart of the second embodiment of the virtual file transmission method in accordance with the present invention.

In the second embodiment of the present invention, a website connection is used as an example of the file for description, but the file of the present invention is not limited within the above examples.

First, execute the step 301: displaying the virtual desktop, and requesting the server side to open a file.

First, the same with the step 200 to step 201, make the virtual desktop display module 21 of the user side 20 display the virtual desktop, and the user is allowed to request the server side 10 to open a file.

Next, execute the step 302: determining whether the file is confidential.

The risk management module 12 then determines the type of the file. In the second embodiment, the risk management module 12 first determines whether the website connection is a confidential connection.

If the website connection is a confidential connection, the risk management module 12 would confirm that the file is the first type and then execute the step 303: transmitting an image streaming or a sound streaming of the file to the user side.

At this time, the virtual desktop management module 11 opens the connection and captures the image on the website to generate the image streaming or the sound streaming, and stores these streaming in the buffer region 111. Then the image streaming or the sound streaming is transmitted to the user side 20.

Further, execute the step 304: when the user side receives the image streaming or the sound streaming, displaying the image streaming or playing the sound streaming on the virtual desktop.

When the user side 20 receives the image streaming, the virtual desktop display module 21 would display the image streaming or play the sound streaming on the virtual desktop. Because the above steps 302 to 304 are similar to the steps 202 to 204, these steps would not be described here.

When this connection is not a confidential connection, the risk management module 12 would confirm this file is the second type, and then execute the step 305: determining whether the file is an external data.

When the connection of the file is not confidential, the risk management module 12 then determines whether the file is an external data, so as to further categorize the file into the third type or the fourth type.

If the connection of the file is the external connection, then the risk management module 12 would determine the type of the file is the third type, and then execute the step 306: transmitting a website address to the user side.

When the risk management module 12 determines the connection of the file is the external connection, such as the homepage of Google® (http://www.google.com), the virtual desktop management module 11 would directly transmit the website address to the user side 20 to allow the file execution module 22 executing the website address and let the user connecting to the external website and opening the webpage.

Final, when the connection of the file is not the external connection, the risk management module 12 would confirm the type of the file is the fourth type, and thus execute the step 307: transmitting a Hyper Text Markup Language (HTML) document to the user side.

When the connection of the file is not the external connection, virtual desktop management module 11 would obtain the Hyper Text Markup Language (HTML) document from the website pointed by the hyperlink, and then transmit the document to the user side 20, so as to make the file execution module 22 of the user side 20 to open this document.

It has to be noted here that the virtual file transmission method of the present invention is not limited by the above step sequences. The above step sequences could be changed in order to achieve the object of the present invention.

Via the virtual file transmission system 1 of the present invention, there could be different process flow according to different file type, so as to decrease the data transmission quantity without affecting the fluency of using the virtual desktop.

It is noted that the above-mentioned embodiments are only for illustration. It is intended that the present invention cover modifications and variations of the present invention provided they fall within the scope of the following claims and their equivalents. Therefore, it will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present invention without departing from the scope or spirit of the invention. 

What is claimed is:
 1. A virtual file transmission system, comprising: a server side, comprising: a virtual desktop management module for providing a virtual desktop; and a risk management module electrically connected with the virtual desktop management module; and a user side, connected to the server side via a network environment for receiving the virtual desktop, the user side comprising: a virtual desktop display module for displaying the virtual desktop and allowing a user requesting the server side to open a file through the virtual desktop; and a file execution module electrically connected with the virtual desktop display module; wherein when the server side receives the request of opening the file, the risk management module would determine the type of the file; when the risk management module confirms that the type of the file is a first type, the virtual desktop management module would open the file and convert the file into an image streaming or a sound streaming, and then transmit the image streaming or the sound streaming to the user side to enable the virtual desktop display module to display the image streaming or play the sound streaming; when the risk management module confirms that the type of the file is a second type, the virtual desktop management module would transmit the file to the user side to enable the file execution module to open and operate the file, and display the file on the virtual desktop through the virtual desktop display module.
 2. The virtual file transmission system as claimed in claim 1, wherein the server side comprises a data base, the risk management module looks up the data base to determine the type of the file according to a metadata of the file.
 3. The virtual file transmission system as claimed in claim 2, wherein the risk management module is used for determining whether the file is a secret data; if the file is the secret data, the risk management module would confirm the type of the file is the first type; if the file is not the secret data, the risk management module would confirm the type of the file is the second type.
 4. The virtual file transmission system as claimed in claim 3, wherein if the type of the file is the second type, the risk management module would further determine whether the file comes from an external link; if the file comes from the external link, the risk management module would confirm the type of the file is a third type; if the file does not come from the external link, the risk management module would confirm the type of the file is a fourth type.
 5. The virtual file transmission system as claimed in claim 4, wherein when the type of the file is the third type, the virtual desktop management module would transmit a webpage address to the user side.
 6. The virtual file transmission system as claimed in claim 5, wherein when the type of the file is the fourth type, the virtual desktop management module would transmit a Hyper Text Markup Language file to the user side.
 7. The virtual file transmission system as claimed in claim 1, wherein the risk management module is used for determining whether the file is a secret data; if the file is the secret data, the risk management module would confirm the type of the file is the first type; if the file is not the secret data, the risk management module would confirm the type of the file is the second type.
 8. The virtual file transmission system as claimed in claim 7, wherein if the type of the file is the second type, the risk management module would further determine whether the file comes from an external link; if the file comes from the external link, the risk management module would confirm the type of the file is a third type; if the file does not come from the external link, the risk management module would confirm the type of the file is a fourth type.
 9. The virtual file transmission system as claimed in claim 8, wherein when the type of the file is the third type, the virtual desktop management module would transmit a webpage address to the user side.
 10. The virtual file transmission system as claimed in claim 9, wherein when the type of the file is the fourth type, the virtual desktop management module would transmit a Hyper Text Markup Language file to the user side.
 11. The virtual file transmission system as claimed in claim 1, wherein the file execution module executes the opening and the operation to the file through an independent window showed on the virtual desktop.
 12. The virtual file transmission system as claimed in claim 1, wherein the user side further comprises an operation module for allowing the user to operate the image streaming or the sound streaming on the virtual desktop and transmits an operation signal back to the server side, and then the virtual desktop management module generates a new image streaming or a new sound streaming according to the operation signal.
 13. The virtual file transmission system as claimed in claim 1, wherein the user side further comprises an operation module for allowing the user to edit the file after opening the file, and transmits an updated file back to the server side.
 14. A virtual file transmission method, applied to a virtual file transmission system, the virtual file transmission system comprising a server side and an user side, wherein the server side is used for providing a virtual desktop, the user side connects to the server side through a network environment for allowing a user using the virtual desktop; the virtual file transmission method comprising the following steps: requesting the server side to open a file; determining the type of the file; when the type of the file is a first type, opening the file and converting the file into a image streaming or a sound streaming, and then transmitting the image streaming or the sound streaming to the user side; when the user side receives the image streaming or the sound streaming, playing the image streaming or the sound streaming on the virtual desktop; when the type of the file is a second type, transmitting the file to the user side; and when the user side receives the file, opening and operating the file on the virtual desktop.
 15. The virtual file transmission method as claimed in claim 14, further comprising the following steps: determining whether the file is a secret data; if the file is the secret data, confirming the type of the file is the first type; and if the file is not the secret data, confirming the type of the file is the second type.
 16. The virtual file transmission method as claimed in claim 15, wherein if the type of the file is confirmed as the second type, then the method further comprises the following steps: determines whether the file comes from an external link; if the file comes from the external link, confirming the type of the file is a third type; and if the file does not come from an external link, confirming the type of the file is a fourth type.
 17. The virtual file transmission method as claimed in claim 16, further comprising the following step: when the type of the file is the third type, transmitting a webpage address to the user side.
 18. The virtual file transmission method as claimed in claim 17, further comprising the following step: when the type of the file is the fourth type, transmitting a Hyper Text Markup Language file to the user side.
 19. The virtual file transmission method as claimed in claim 14, wherein after playing the image streaming or the sound streaming, the method further comprises the following steps: providing the user operating the image streaming or the sound streaming on the virtual desktop, and transmitting an operation signal back to the server side; and generating a new image streaming or a new sound streaming according to the operation signal.
 20. The virtual file transmission method as claimed in claim 14, wherein after the file is opened and operated on the virtual desktop, the method further comprises the following step: providing the user editing the file on the virtual desktop, and transmitting an updated file back to the server side.
 21. The virtual file transmission method as claimed in claim 14, wherein after the file is opened and operated on the virtual desktop, the method further comprises the following step: displaying the file on the virtual desktop via an independent window. 